Add to ORKGThe contractile properties of cardiac muscle cells are determined by the molecular composition of the contractile apparatus and in particular by the structure of myosin. Three isoforms of myosin heavy chains have been recently identified in the mammalian heart: alpha and beta myosin heavy chains, present in atrial and ventricular myocardium, and nodal myosin heavy chain, present in sino-atrial and atrio-ventricular nodes. The alpha and beta isoforms are coded by two distinct genes whose expression is tissue and developmental stage-specific, and can be regulated by hormonal and mechanical factors. The relative concentration of the two isoforms is correlated with the maximal velocity of sh...
We tested the hypothesis that hypertrophy of the human heart is associated with the redistribution o...
The cardiac ventricular myosin heavy chain phenotype is developmentally and hormonally regulated, bu...
The adult rodent heart adapts to increased work load by reexpression of its fetal genes, for example...
Cardiac energetics and performance depend on the expression level of the fast (α-) and slow (β-) myo...
Two distinct myosin heavy chain isoforms, referred to as alpha and beta, were identified in the huma...
Antisera against bovine atrial myosin were raised in rabbits, purified by affinity chromatography, a...
Two antigenically distinct types of myosin heavy chain, referred to as alpha and beta, have been ide...
Cardiac hypertrophy is an adaptive response that normalizes wall stress and compensates for increase...
We investigated the effects of the expression of myosin light chain (MLC) isoforms on the Ca2+ sensi...
compri chains at least 10 different sarcomeric myosin heavy chain (MyHC) isoforms each encoded by a ...
Milting H, Thies WR, Breymann T, et al. Coexpression of alpha and beta myosin heavy-chain isoforms i...
In the bovine nodal conduction tissue we have described the existence of a novel cardiac myos...
The structural properties of cardiac isomyosins from several species were compared using native gel ...
A dual regulation of contraction operates in both skeletal and cardiac muscles. The first mechanism,...
Hemodynamic overload produces in the cardiac myocyte a complex pattern of gene reprogramming, a 'mec...
We tested the hypothesis that hypertrophy of the human heart is associated with the redistribution o...
The cardiac ventricular myosin heavy chain phenotype is developmentally and hormonally regulated, bu...
The adult rodent heart adapts to increased work load by reexpression of its fetal genes, for example...
Cardiac energetics and performance depend on the expression level of the fast (α-) and slow (β-) myo...
Two distinct myosin heavy chain isoforms, referred to as alpha and beta, were identified in the huma...
Antisera against bovine atrial myosin were raised in rabbits, purified by affinity chromatography, a...
Two antigenically distinct types of myosin heavy chain, referred to as alpha and beta, have been ide...
Cardiac hypertrophy is an adaptive response that normalizes wall stress and compensates for increase...
We investigated the effects of the expression of myosin light chain (MLC) isoforms on the Ca2+ sensi...
compri chains at least 10 different sarcomeric myosin heavy chain (MyHC) isoforms each encoded by a ...
Milting H, Thies WR, Breymann T, et al. Coexpression of alpha and beta myosin heavy-chain isoforms i...
In the bovine nodal conduction tissue we have described the existence of a novel cardiac myos...
The structural properties of cardiac isomyosins from several species were compared using native gel ...
A dual regulation of contraction operates in both skeletal and cardiac muscles. The first mechanism,...
Hemodynamic overload produces in the cardiac myocyte a complex pattern of gene reprogramming, a 'mec...
We tested the hypothesis that hypertrophy of the human heart is associated with the redistribution o...
The cardiac ventricular myosin heavy chain phenotype is developmentally and hormonally regulated, bu...
The adult rodent heart adapts to increased work load by reexpression of its fetal genes, for example...